/* vim: set expandtab ts=4 sw=4: */
/*
* You may redistribute this program and/or modify it under the terms of
* the GNU General Public License as published by the Free Software Foundation,
* either version 3 of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#include "memory/Allocator.h"
#include "util/log/Log.h"
#include "switch/SwitchCore.h"
// TODO(cjd): Get rid of NumberCompress so we can set encodingScheme at runtime.
#define NumberCompress_OLD_CODE
#include "switch/NumberCompress.h"
#include "util/Bits.h"
#include "util/Checksum.h"
#include "util/Endian.h"
#include "wire/Control.h"
#include "wire/Error.h"
#include "wire/Headers.h"
#include "wire/SwitchHeader.h"
#include "wire/Message.h"
#include
#include
struct SwitchInterface
{
struct Iface iface;
struct Allocator* alloc;
struct SwitchCore_pvt* core;
struct Allocator_OnFreeJob* onFree;
Identity
};
struct SwitchCore_pvt
{
struct SwitchCore pub;
struct SwitchInterface interfaces[NumberCompress_INTERFACES];
bool routerAdded;
struct Log* logger;
EventBase_t* eventBase;
struct Allocator* allocator;
Identity
};
struct ErrorPacket8 {
struct SwitchHeader switchHeader;
uint32_t handle;
struct Control ctrl;
};
Assert_compileTime(sizeof(struct ErrorPacket8) == SwitchHeader_SIZE + 4 + sizeof(struct Control));
static inline Iface_DEFUN sendError(struct SwitchInterface* iface,
Message_t* cause,
uint32_t code,
struct Log* logger)
{
if (Message_getLength(cause) < SwitchHeader_SIZE + 4) {
Log_debug(logger, "runt");
return Error(cause, "RUNT");
}
struct SwitchHeader* causeHeader = (struct SwitchHeader*) Message_bytes(cause);
if (SwitchHeader_getSuppressErrors(causeHeader)) {
// don't send errors if they're asking us to suppress them!
return NULL;
}
// limit of 256 bytes
if (Message_getLength(cause) > Control_Error_MAX_SIZE) {
Er_assert(Message_truncate(cause, Control_Error_MAX_SIZE));
}
// Shift back so we can add another header.
Er_assert(Message_epush(cause,
NULL,
SwitchHeader_SIZE + 4 + Control_Header_SIZE + Control_Error_HEADER_SIZE));
struct ErrorPacket8* err = (struct ErrorPacket8*) Message_bytes(cause);
err->switchHeader.label_be = Bits_bitReverse64(causeHeader->label_be);
SwitchHeader_setSuppressErrors(&err->switchHeader, true);
SwitchHeader_setVersion(&err->switchHeader, SwitchHeader_CURRENT_VERSION);
SwitchHeader_setTrafficClass(&err->switchHeader, 0xffff);
SwitchHeader_setCongestion(&err->switchHeader, 0);
err->handle = 0xffffffff;
err->ctrl.header.type_be = Control_ERROR_be;
err->ctrl.content.error.errorType_be = Endian_hostToBigEndian32(code);
err->ctrl.header.checksum_be = 0;
err->ctrl.header.checksum_be =
Checksum_engine_be((uint8_t*) &err->ctrl, Message_getLength(cause) - SwitchHeader_SIZE - 4);
return Iface_next(&iface->iface, cause);
}
#define DEBUG_SRC_DST(logger, message) \
Log_debug(logger, message " ([%u] to [%u])", sourceIndex, destIndex)
/** This never returns an error, it sends an error packet instead. */
static Iface_DEFUN receiveMessage(Message_t* message, struct Iface* iface)
{
struct SwitchInterface* sourceIf = Identity_check((struct SwitchInterface*) iface);
struct SwitchCore_pvt* core = Identity_check(sourceIf->core);
if (Message_getLength(message) < SwitchHeader_SIZE) {
Log_debug(core->logger, "DROP runt");
return Error(message, "RUNT");
}
struct SwitchHeader* header = (struct SwitchHeader*) Message_bytes(message);
const uint64_t label = Endian_bigEndianToHost64(header->label_be);
uint32_t bits = NumberCompress_bitsUsedForLabel(label);
const uint32_t sourceIndex = sourceIf - core->interfaces;
const uint32_t destIndex = NumberCompress_getDecompressed(label, bits);
const uint32_t sourceBits = NumberCompress_bitsUsedForNumber(sourceIndex);
Assert_true(destIndex < NumberCompress_INTERFACES);
Assert_true(sourceIndex < NumberCompress_INTERFACES);
if (1 == destIndex && 1 != (label & 0xf)) {
// routing interface: must always be compressed as 0001
DEBUG_SRC_DST(core->logger,
"DROP packet for this router because the destination "
"discriminator was wrong");
return sendError(sourceIf, message, Error_MALFORMED_ADDRESS, core->logger);
}
if (sourceBits > bits) {
if (destIndex == 1) {
// If the destination index is this router, don't drop the packet since there no
// way for a node to know the size of the representation of its source label.
// - label ends in 0001; if there are enough zeroes at the end after removing the 1,
// we can still fit in the source discriminator
// - the return path probably doesn't start with 3 zeroes, but it will still be working,
// as the source discriminator is large enough to make space for 3 zeroes between
// reverse return path and forward path (see below)
if (0 != ((label ^ 1) & (UINT64_MAX >> (64 - sourceBits - 4)))) {
// This is a bug.
// https://github.com/cjdelisle/cjdns/issues/93
// The problem is that there is no way to splice a route and know for certain
// that you've not spliced one which will end up in this if statement.
// Unfortunately there seems no clean way around this issue at the moment.
// If this router and switch communicated using labels with "64 + four less
// than the number of bits in largest discriminator" bits wide, it could handle
// this situation, this solution is obviously non-trivial.
DEBUG_SRC_DST(core->logger,
"DROP packet for this router because there is no way to "
"represent the return path.");
return sendError(sourceIf, message, Error_RETURN_PATH_INVALID, core->logger);
}
bits = sourceBits;
} else if (1 == sourceIndex) {
// - we need at least 3 zeroes between reverse return path and forward path:
// right now the label only contains the forward path
// - sourceBits == 4, bits < 4 -> bits + 64 - sourceBits < 64
// - the reverse source discriminator "1000" and the target discriminator "0001"
// can overlap as "10001" (or "100001" or ...)
if (0 != label >> (bits + 64 - sourceBits)) {
// not enough zeroes
DEBUG_SRC_DST(core->logger, "DROP packet because source address is "
"larger than destination address.");
return sendError(sourceIf, message, Error_MALFORMED_ADDRESS, core->logger);
}
} else {
//Log_info(core->logger, "source exceeds dest");
DEBUG_SRC_DST(core->logger, "DROP packet because source address is "
"larger than destination address.");
return sendError(sourceIf, message, Error_MALFORMED_ADDRESS, core->logger);
}
}
if (core->interfaces[destIndex].alloc == NULL) {
if (sourceIndex == 1) {
DEBUG_SRC_DST(core->logger, "DROP packet we tried to send, no such peer");
}
// This is important, but it's someone else's important problem
// DEBUG_SRC_DST(core->logger, "DROP packet because there is no interface "
// "where the bits specify.");
return sendError(sourceIf, message, Error_MALFORMED_ADDRESS, core->logger);
}
/*if (sourceIndex == destIndex && sourceIndex != 1) {
DEBUG_SRC_DST(core->logger, "DROP Packet with redundant route.");
return sendError(sourceIf, message, Error_LOOP_ROUTE, core->logger);
}*/
uint64_t sourceLabel = Bits_bitReverse64(NumberCompress_getCompressed(sourceIndex, bits));
uint64_t targetLabel = (label >> bits) | sourceLabel;
int cloneLength = (Message_getLength(message) < Control_Error_MAX_SIZE) ?
Message_getLength(message) : Control_Error_MAX_SIZE;
uint8_t messageClone[Control_Error_MAX_SIZE];
Bits_memcpy(messageClone, Message_bytes(message), cloneLength);
// Update the header
header->label_be = Endian_hostToBigEndian64(targetLabel);
uint32_t labelShift = SwitchHeader_getLabelShift(header) + bits;
if (labelShift > 63) {
// TODO(cjd): hmm should we return an error packet?
Log_debug(core->logger, "Label rolled over");
return Error(message, "UNDELIVERABLE");
}
SwitchHeader_setLabelShift(header, labelShift);
SwitchHeader_setTrafficClass(header, 0xffff);
return Iface_next(&core->interfaces[destIndex].iface, message);
}
static void removeInterface(struct Allocator_OnFreeJob* job)
{
struct SwitchInterface* si = Identity_check((struct SwitchInterface*) job->userData);
Bits_memset(si, 0, sizeof(struct SwitchInterface));
}
void SwitchCore_swapInterfaces(struct Iface* userIf1, struct Iface* userIf2)
{
struct SwitchInterface* si1 = Identity_check((struct SwitchInterface*) userIf1->connectedIf);
struct SwitchInterface* si2 = Identity_check((struct SwitchInterface*) userIf2->connectedIf);
Iface_unplumb(userIf1, &si1->iface);
Iface_unplumb(userIf2, &si2->iface);
Assert_true(Allocator_cancelOnFree(si1->onFree) > -1);
Assert_true(Allocator_cancelOnFree(si2->onFree) > -1);
struct SwitchInterface si3;
Bits_memcpy(&si3, si1, sizeof(struct SwitchInterface));
Bits_memcpy(si1, si2, sizeof(struct SwitchInterface));
Bits_memcpy(si2, &si3, sizeof(struct SwitchInterface));
si1->onFree = Allocator_onFree(si1->alloc, removeInterface, si1);
si2->onFree = Allocator_onFree(si2->alloc, removeInterface, si2);
Iface_plumb(userIf2, &si1->iface);
Iface_plumb(userIf1, &si2->iface);
}
int SwitchCore_addInterface(struct SwitchCore* switchCore,
struct Iface* iface,
struct Allocator* alloc,
uint64_t* labelOut)
{
struct SwitchCore_pvt* core = Identity_check((struct SwitchCore_pvt*)switchCore);
int ifIndex = 0;
// If there's a vacent spot where another iface was before it was removed, use that.
for (;;ifIndex++) {
if (ifIndex == NumberCompress_INTERFACES) { return SwitchCore_addInterface_OUT_OF_SPACE; }
if (!core->interfaces[ifIndex].iface.send) { break; }
}
struct SwitchInterface* newIf = &core->interfaces[ifIndex];
Identity_set(newIf);
newIf->iface.send = receiveMessage;
newIf->core = core;
newIf->alloc = alloc;
newIf->onFree = Allocator_onFree(alloc, removeInterface, newIf);
Iface_plumb(iface, &newIf->iface);
uint32_t bits = NumberCompress_bitsUsedForNumber(ifIndex);
*labelOut = NumberCompress_getCompressed(ifIndex, bits) | (1 << bits);
return 0;
}
struct SwitchCore* SwitchCore_new(struct Log* logger,
struct Allocator* allocator,
EventBase_t* base)
{
struct SwitchCore_pvt* core = Allocator_calloc(allocator, sizeof(struct SwitchCore_pvt), 1);
Identity_set(core);
core->allocator = allocator;
core->logger = logger;
core->eventBase = base;
struct SwitchInterface* routerIf = &core->interfaces[1];
Identity_set(routerIf);
routerIf->iface.send = receiveMessage;
routerIf->core = core;
routerIf->alloc = allocator;
core->pub.routerIf = &routerIf->iface;
return &core->pub;
}